Heading machine



Nov. 23 1926. 1,608,162

. J. BRENZINGER HEADING MACHINE y Filed Nov. 19, 1923 14 Sheets-Sheet l HEADING MACHINE Filed Nov. 19, 1923 14 sheets-sheet, 2

Nov. 23 ,1926. 1,608,162

J. BRENZINGER HEADING MACHINE Filed Nov. 19, 1923 -14 Sheets-Sheet 3 lull uw A Im s l Nov. 23 192e..

J. BRENZI'NG ER HEADING MACHINE Filed Nav. 19, 1923 14 Sheets-Shet' 4 Inni.

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w simi ATTORNEY Nov. 23, 1926.

J. BRENZINGER HEADING MACHINE Filed Nov. 19, 1925 14 Sheets-Sheet 5 I WEA/ TOR asnwjanger 'ATTORNEY Nav. 23 1925 J. BRENZINGER HEADING MACHINE Filed NOVy 19, 1923 l Av1/1,111,111,111

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' J. BRENZINGER HEADING MACHINE Filed Nov. 19,. 1923 14 Shee'cs-Shje'ei', s

157 63 I INVENTOR 50 7x-[1215 Bfenjz'ngcz BY` Wm@ iATTORNEY 9, 1923 14 Sheets-Sheet 9 7.10.

Nov. 23 1926. J. BRENZINGER HEADING MAGHINE Filed Ngv. l

Nov. 23 1926.l

J. BRENZINGER HEADING MACHINE Filed Nov. 19, 1923 14 Sheets-Sheet 10 A ITTORNEY J. BRENZINGER HEADING MACHINE Filed Nov. 19. 1923 14 Sheets-Sheet l1l INVENTOR liasferzjzfzger Hwy/M A TTORNE Y Nov. 23 1926. `1,608,162

J. BRENZlNGER HEADING MACHINE Filed NOV. l 9, 1923 14 Sheets-Sheet 12 Y I'NVENTOR v Jlzas Brenjmgef Bv JWM ATTORNEY Nov. z3 192e. 1,608,162

J. BRENZINGER HEADING MACHINE Filed Nov. 19, 1923 14 Sheets-Sheet l5 N 'Nvo woud asus norma 'aaNsmu MIb/3S ATURNEY Nav. 23 1926.

J. BRENZENGER 14 Sheets-Sheet VI4 CII Patented Nov. 23, 1926.

UNITED STATES maaier. Partnr; ortie-E.

kJ'ULIU'S BRENZINGER, OF' FAIRFIELD, CONNECTICUT, ASSIGNOR TO THE BIAX AMS MACHINE COMPANY, F BRIDGEPORT, CONNECTICUT, A CORFORATION OF NEIN YORK.

HEADING MACHINE.

Application filed November 19, 1923.

This inventio-n relates generally to heading machines and has more particularly ref erence to a machine in which the seaming tool employed is provided with a spiral seaming surface such as is disclosed in Patents Nos. 1.121,894 of Dec. 22, 1914 and 1,400,7 96 of Dec. 20, 1921; and the main, although not the exclusive, object and feature of this invention is to provide an automatic machine to which bodies and covers may be fed in constant succession and be united by a seaming tool of the character indicated.

In the accompanying drawings the invention is disclosed in a concrete and preferred form in which:

Fig. 1 is a top plan view of a machine embodying the invention.

Fig. 2 is a view in elevation looking in the direction of arrow 2 in Fig. 1.

Fig. -3 is a vertical sectional view ythrough the upper head taken substantially in the plane of line 3*3 of Fig. 1.

Fig. 4 is a vertical sectional view of the lower head taken substantially in the plane of line 3-3 of Fig. 1 and in the plane of line 4 4 of Fig. 5.

Fig. 5 is a horizontal sectional view in the plane of line 5-5 of Fig. 4.

Fig. 6 is a vertical sectional view in the plane of irregular line 6 6 of Fig. 5.

Fig. 7 is a view in elevation of the in-feeding turret and adjacent elements looking in the direct-ion of arrow 7 in Figs. 1 and 5.

Fig. 8 is an irregular sectional vi ew in the plane of irregular line 8-8 of Fig. 7.

Fig. 9 is a detail sectional view in the plane of line 9 9 of Fig. 8.

Fig.k 10 is a view in elevation, with parts broken away and in section, of the in-feeding turret and parts of the lower head looking in the direction of arrow 10 in Figs. 1 and 4.

Fig. 11 is a bottom plan view of the upper head, partly broken away and in section, substantially on irregular line 11-11 of Fig. 3.

Fig. 12 isa perspective view of one of the chuck carriers.

Fig. 13 is a perspective view of one of the chuck brackets.

Fig. 14 is a perspective view of one of the can positioners carried by each chuck.

Fig. 15 is a top plan fragmentary view, with parts broken away and in section, of the parts adjacent the irl-feeding turret and the cover feed mechanism.

Serial No. 675,526.

Fig. 16 is a detail sectional view in the plane of line 1,6-16 of Fig. 15.

Fig. 17 is a perspective view of part of the clutch mechanism for the cover feed mechanism.

Fig'. 13 is a detail horizontal sectional view on the plane of line 18-18 of Fig. 16.

Fig. 19 is a vertical sectional view on the plane of irregular line 19-190f Fig. 15.

Fig. 20 is a diagrammatic view'showing the action of the cams for operating the members of the work-holders and indicating the mo-vement of said members with relation to each other and their joint movement during the seaming operation.

Fig. 21 is a view similar to the upper part of Fig. 5 showing adjustments made for a can body of different size from that shown in Fig. 5.

The general arrangement of the parts can best be understood by first considering Fig.

1 where 1 indicatesa rotatable dial for receiving filled can bodies in an upright position from any suitable source and for crowding them through channel 2 and into a position where they will be spaced by spacing mechanism 3 acting to slide the bodies over stationary table 4 in a curved path defined by rail 5 until said body comes into position over conveyor chain 6 which then feeds the bodies in a straight path beneath splash plungers 7 and into engagement with the pockets of rotating in-feeding turret 8 veach pocket of which has a cover advancing member 9 which is in the form of'a wing and which takes a cover from the cover source of supply 10 and feeds it into alinement with a can body to a work-holder in the heading mechanism generally designated by 11.

Turning now our attention to the workholding and seaming means, it will be seen from Fig 2 that these devices consist generally of an upper and a lower head 12 and 13, the upper head being constructed as follows (see Figs. 3, 11, 12, 13 and 14): Upper head 12 is a revolving head mounted loosely on hollow member 14 which latter is supported by bearing 15 carried by the framework. Extending through hollow member 14 is a seaming tool spindle 17 carrying at its lower end a seaming tool 18 having a spiral seaming surface of the character disclosed in Patents Nos. 1,121,- 894 of Dee. 22, 1914 and.1,400,796 of Dec, 2Q, 1991 and provided at its upper end with a bevelgear 1 9 driven from bevel pinion 2O on power shaft 2l which latter is provided With a Worm 22 engaging Worm gear S23 on upright shaft Q4V that carries a spur gear 25 meshing With 'spurgear 26 on the outer circumference of revolving head '12. Mounted Within the revolving head aire a plurality of chuck carriers, one of which is shown in perspective view (Fig. 12), there being' inthe` presentV instance four such chuck carriers. fis indicated in Fig il, each carrier is adapted to slide independently Yofthe othersjin a `direction parallel to the axis of the seeming tool. The means for effecting `afve'rtical sliding movement of these carriers `consists of a stationary cam 2'?, bolted to the framework, vwith whichl engages cam roll 2S carried by bcaring- 29 on each chuck carrier. lllounted on each chuck -carr'ier is a chuck bracket having bearingA portions- 31,31 for the reception of chuck spindle `32 which latter carries at its lower end chuck 33, Also mounted on chuck spindle is gear 34 engagingwith agear 35 conveniently carried by a seaniing `tool spindle l?, said gear 35 being of considerable length so as to .retain meshing engagement With 34e notwithstanding an up-and-doivn movement of the church carriers. 36. indicates a can positioner` carried by chucl braclet 30, sadwpositioner bengfprovided with a curved positioningsurface. 87 that acts to center the can bodyA on the lower `chuck` or. pedestal and which is also provided` in said4 curved positioning surface with a reversefly curved cut-out portion 38. through i Which-the seaming tool projects, said opening being of suflicient height to admit of the slid-ing movement of said positioner iviththe chuck carrier in respect to said seaming-tool` Without interference.

The parts `comprising the lower head are shown more particularly in Figs. 4l and 5 and are as follows: 39 indicates avertical spindle at the lower end of which is provided a stationary cam 4;() for effecting reciprocationof the` lower chucks or pedestalscarried bythe spindle. Mounted on `said spindle 39 is a carryingV member ll having lat its upper endY a spider l2 that carries pinion le Fig, 2) mounted on shaftQ whereby the lower head is revolvedI in -unisonr with the upper head` Carrying ineinber` il provided with i a plurality of ver-tical guideways 415 in each of `which there is aV slide 4:5 cari-.ving a loivenchucl; spindle if and; provided with a canil roller 4:8 to engage stationary cam 40; also Figs. 8 and 1,0). vEach of the lower chuck spindles 47 carries a lower chuck or base `plate la 50 indicates adelivery chute for.

receivinglthe finished product.` A

rllhe feedingn turret 8 for the bodies a spur gear 43 meshing With :spur

gear 59011 power shaft 21. Carried` atthe Vlower end ofshaft 5d (see especially Figs,

6,18 and 9) is a, bevel gear 60 that meshes with bevel gear 6l on conveyor. chaindrive i shaftoGQ; and this" shaft" 62 carries a sprocket 63 that operates conveyor chain 6, the other end of said chainrpassingover a sprocket 63 (Figi l)` on shaftl. From the latter shaft there is a sprocket chain drive 65 to splash thefplungers, a` gear drive 66 to, the` spacing mechanism and a bevel gear drive 67 to. the.inffeedingqdial. Below turret 8 is a tablel` (see especially Figs. 1,5 and 6) andas thencan bodies are 'received from, the conveyor chain 6 they are moved by pockets in the turret Vandl are thereby passed over said table 6,8, the path of the bodies being defined by guides 'G9 and,

in their travel to theiwork-holder, passed` beneathfcover feed mechanism 11, member or Wing 9 acting to push a cover 70 through guides 7l `(Figs,` 5, 6 and 7) until the cover drops in position on the body and they Iare grasped by the Work-holder.

Any suitable means maybe used to separatethe covers from the stack l0 brit, in the present instance, there are em aloyed three spiral feeding-out rollersf72` Figs. G and l0). These rollersare mounted on spindles 73 l(see Figs. 6,15 and 19)#each of which carries at its upper enda pinion 74" meshing with a central idler 75. One of said pinions 74 drives idler 75 and; the other tivo pinions '74 are driven from4v idler 75, The first mentioned pinion 74 meshes with an intermedi ate 76 and this inter-mediate meshes with a pinion on shaft 78 that carries, at its upper endpanother pinionl motion from gear 8Or drV ven by gear 8l from shaft 54h Preferably, tl'iere is atclutch interposed in this train of gears whereby no cover will be fed by the spiral feeding-out rollers 72 unless a body has been fed `to receive a cover. i The means used` in thisl instance for offertingithis` no can no cover control lare as folle-irs: is a detecter member (see Figs, l" and mounted on rockshaft 83 and adapted to project into the path of the bodies advanced/'by the turret over table 68. Connected `With rockshaft 85' isan arm Se from which extends a link 85 connected With arms 86 secured to rockshaft S7 supported on the framework (see Figs. l', 5 and l5) and connected with link` 85 on upper arm 86 is connecting "rod 88, the other end 79 that receives its les of which is pivotally connected with arm 89 on rock-shaft 90 which latter carries a bifurcated actuating membeiI 91 that engages a pin 92 carried by sliding member 93 (see. Figs. 15, 16, 17 and 18) and it will be understood that if a can body is present at the proper time against detector memberI 82, then through the connections described sliding member 93 is moved to the right in Fig. 16 thereby bringing it out of engagement with clutch pin 94. Spring 87a on 87 restores parts to normal position. As will be seen in Fig. 16, gear 7 7 is fast on shaft 73 but gear 79 is loose on said shaft and imparts its motion to said shaft by means of clutch member 95 which is fast to the shaft. Clutch member 95 carries clutch pin 94 which normally tends to descend into opening 96 of member 97 secured to loose gear 79. The tendency of clutch pin 94 to descend into opening 96 is due to expansion spring 98 and, so long as said clutch pin is in engagement with opening 96, power is transmitted from gear 79 to shaft 78 and thence to feeding-out rollers 72 of the cover feed mechanism. When, however, detector member 82 is not moved outwardly by a can body, then through the connections previously described, and by reason of spring 87 a, sliding member 93 will move to the left in Fig. 16 and cam face 99 (Fig. 17) will be in the plane of projection 100 of clutch pin 94 so that when rotation of clutch member 95 carrying said pin 94 brings the latter around to the point where sliding member 93 is located, then said clutch pin will ride up cam surface 99 and its lower end will thereby be withdrawn from opening 96 of gear 79 and hence no power will be transmitted to feeding-out rollers 72. Referring to Fig. 19, it is preferred to interpose additional clutch mechanism in this train of gears which, however, is for a widely different purpose. It will be observed that gear 81 is loose on shaft 54 and is driven from said shaft by means of slipping clutch 101. In this way, rotation in one direction of shaft 5e will, through clutch 101, drive gear 81 and the cover feeding mechanism; but backward rotation of shaft 541, sometimes found useful in operating the machine by hand and setting it preliminarily for power operation, will fail to transmit power to gear 81 and hence the cover feed mechanism will not be operated.

The operation of thel device is as follows: Can bodies are fed to the table 68 by the means described and are then engaged by one of the pockets in turret 8, the body passing by detector member 82. throwing the same outwardly, so as to render the transmission to the cover feeding-out roller 72 operative. rlhe cover by rotation of member' 72 is fed downwardly from a stack and eventually reaches channel member 71. As the body comes into position below the cover stack, wing 9 on the turret engages: the lowermost and freecover resting in guide 71 and oarries it along` in alinement with the body until the point where guide 71 terminates (see Fig. 5) at which point the body is placed on pedestal lor lower chuck a9. W hen the cover reaches the end of guide 71, it drops 'on the body below and the upper chuck then descends and the lower chuck or base plate rises and the body and cover are clamped together as the work-holder revolves; and, at thesame time, the work-holders are rot-ated by the gear drive from gears 34 and 35 (see Fig. 3). clamped, the upper and lower chucks both rise during the seaming operation, the eX- tent of the rise being properionate` to the lead of the spiral thread of the spiral seaming surface on the seaming tool in a manner well understood, the work-holder meanwhile revolving around the seaming tool which latter rotates in a direction opposite to that of the individual work-holders.

After the seaming operation is completed the new united body and cover reach delivery chute 50 where they are engaged. by ejecting member 102, which sweeps the now closed can out of the machine. VVhen the can is transferred from a pocket of the turret to a pedestal, it is moved against the positioning device l(Fig. 14C), the curved surface 37 of which acts to properly center the body so tnat the seaming tool, projecting through opening 38, will properly perform its function in seaniing the cover to the can. By referring to Figs. 5 and 20, the scanning operation will be. thoroughly understood. The diagram in Fig 20 should be read from right to left; and from this dia- After the work is thus u gram the action of cams 27 and Ll0 may be observed. Beginning at the point of 180, which is the moment that the can bodv is discharged from the work-holder, it will be observed that there is a slight rise in chuck cam 27 and that there is considerable drop in pedesta cam 40. The chuck and pedestal new remain at a constant level for a number of degrees when the pedestalcam lowers the pedestal at a rather rapid rate of speed, the position of 270o being indicated in 5 at the right. At the same time, the chuck `cam 27 lowers the chuck but ata lesser rate of speed than the lowering of the pedestal. Chuck cam 27 then has a neutral surface for about 30 and meanwhile pedestal cam 410 is raising the pedestal until zero position is reached, said position being indicated in Figs. 5 and 20 at the point marked can engaged. lt will now be observed from Fig. 20. that the rise in chuck cam and pedestal cam 10 is coincident during the seeming operation which occupies nearly half revolution of the` cams.; and that then, after the seam is finished, the

Cil

pedestal and chuck are slightly separated by their cams at the point 180o so that ejecting linger 102 may sweep the can out of the machine.

1n view ofthe fact that the machine under consideration.must act on containers ot difl'erent sizes, that is of dil'iferent height and diameter', it is necessary to provide means whereby the parts may be adjusted so as to compensate for the dill'erence in the size ont the containers. Sov tar as the seaming mechanism concerned, the seaming tool remains unchanged but the upper and lower chucks have to be adjusted radially with respect to the airis o't rotation ot' the seeming tool and must also be adjusted in a direction parallel thereto, these adjustments being, in the present instance, accomplishedA in the following manner: Re erring to Figs. 3, 5, 11, 12, 13 and 14, it will be seen that chuck bracket 30 is provided with elongated slots 103 that are secured by means ol screws 105 that threaded into openings 101 in the chuck carrier. This adjust-ment will bring the upper chucl:V nearer to or i'arther away 'trom the center ofV rotation ot tac seaming tool and will carry with it positioner 30 which is secured by means of screws 10G to chuck bracket. lt will be understood that with 'this construction, the chucl; carriers will always remain in the. same position and their sliding" movement between the walls ot head 12 a d Tcritical guides 107 will remain undist-urbed with respect to any radical morement. Referring to Figs. t and 5, the lower chucks are adjusted in the following manner: Stem 117 carries a support 108 whichis provided with elongated slots 109 in which the yielding iedestal or lower ehuclr 49 is adjrstably mounted by means of screws 110. Stem l? is secured to sliding member 10 by means ot bolts 111 and it will be obvious that by loosening these bolts and moving the stem up orV down, the height trom the pedestal or lower chucl; will be varied. `lleterring to Figs. 2, 5 and 10: 112 indicates a bracket having a number ol openings, as 113', in its surface to which may be adjustably bolted plate 111- that supports delivery chute supporting rod 115. This rod carries two brackets 116 in which delivery chute 50 is adjustably mounted as by means of wing nuts 117, screws 118 and elongated slots 119 so that the delivery means may be adjusted up and down and nearer to or farther away from the teaming mechanism. lljector linger 102 is likewise adj ustably mounted on brackets 11G. Referring particularly to Figs. 6, 7, 8, 9 and 10, it will be seen that table G8 'forms part of, or is secured to, vertically adjustable member 120. This member. as will be seen from Fig. 10, may be adjusted on linished surface 121, this being accomplished by means ot handwheel 12.l carrying threaded bushing 123 that engages a threaded stein 12e mounted against rotation on adjustable member 120. rthreaded stem 12a passes through an un threaded opening in bracket 125, said bracket being carried on the lower fixed .framework oi1 the machine. 1t will now be understood that when bolts 126, passing through elongated slots 127 o1 member 120, are loosened, by turning handle 122 in one direction or the other, member will be i d or lowered as the case may be. By thrsc means table 68 may be raised or lowered so as to bring a different size container into proper relation with the turret and with the worleholders ot the scanning tool. Comparing FiO'. 5with Fig. 21, it will be evident that when a smaller size can is used a smaller turret is substituted in Fig.

.21; andwhen this is don-e, it will be understood that the turret must be` moved nearer to the seaming mechanism. This is accomplished by means of a turret supporting i. member 128 (see particularly Fig. 6) that is adjustable on linished surface 129 of the base plate of the machine and guided by rib on same. Means for adjusting theturret supporting member consist ot a threaded stem 130 carried by a bracket 131 andin threaded engagement with said turret supporting member 128, as seen more particularly in Fig. 10. Vilhcn the desired adjust-ment has been made, bolts 132 (Fig. 8) passing through elongated slots 133 are, tightened thereby securing said turret supporting member to the base plate ot the machine. As will also be seen,and especially from Fig. 6, the source of supply ot' covers 10 from the cover feeding hopper is likewise carried by turret supporting member 128, being preferably secured thereto by hinges 134i, the lower one of which may be seen in Fig. 0, and the hinge pivot point being clearly seen in Fig. 1. lnorder to maintain the integrity of the drive from the power shaft 21101' rotating the turret, and for driving the power supporting means, aswell as the means for driving the conveyor chain 6, worm 56 (Fig. 19) is slidingly mounted on shaft- 57, and snait 5-1 and its gears, as well as the entire train of gears to the turret supporting means as shown in Fig. 19, are carried by the turret support 128. It will be recalled that shalt 541 has bevel gear 60 at its lower end by means of which the sprocket 63 ot conveyor chain 6 is actuated. By considering Figs. 8 and 9, it will be understood how the integrity of this drive is maintainedlwhen the machine is adjusted. rlhe adjustment oli the turret supporting member will be either from the right or the lett lookingV at Fig. 9; and it will be observed that bearing 135 ot bevel 60 is coupled with bearing 136 of bevel 61 and, by reason of pin 13'?, when this adjustment takes place, carics shaft 02 with it, said shaft being mounted in a lined bearing 138. This shatt also carries sprocket G3 mounted on sleeve 139 that is in splined engagement with shaft (i2 and which has a head 140 at each end so that sprocket 63 retains its position notwithstan g sidcwise adjustment of shaft 62, but is, nevertheless, driven therefrom in any adjusted position ci the shaft. Owing to the i'act that shaft 62 carrying sprocket 53 is mounted on adjustable table G8 or adjustable member 120 carrying said table, provision must also be made ifo-r compensating tor the vertical adjustment ci the table and to this end bevel gear 60 is spline-d by means oi key 141 to shai't 54 so that it shaft rises or falls, the coupled bearings 135 and ot the two bevel gears will cause bevel gear 60 to slide up and down on shatt In order to permit the elevation of table 63 with respect to stationary support 4, over which the bodies slide while being propelled by conveyor 6, there is a hinge connection 142 between said table and said support 4 (see Figs. 5 and 6). There remain, of course, some minor adjustments that must be made. As will he readily apparent from a comparison of Fig. 5 andv Fig. 21 for instance, a suitable adjustment of the detector member 82 with respect to arm 85 must be made. So also guides 143 21) are substituted for guides 144 (Fig. 5). It will be noted that the body enters the turret in Fig. 21 almost tangentially whereas in Fig. 5 it takes quite a sweep. So also cover guides 71 (Fig 5) are replaced by others, such as 145, ot suitable shape and size with regard to the size of the cover to be fed.

The cover feeding mechanism shown herein is not claimed in this application but forms the subject matter o1" application Ser. No. 7 57 ,819, filed December24, 1924.

I claim:

1. A machine of the character described comprising: two revolving heads, a plurality of individually rotating work-holders arranged in a circular group, each consisting or two opposed chucks, carried by said heads, a scaming tool having a spiral seaming surface disposed centrally of said group, and means, acting independently with respect to each work-holder, for opening and closing the twochucks ot each work-holder on the` work and for moving, during the seaming operation, both chucks in unison parallel to the axis of the seaming tool.

2. A machine ot the character described comprising: two revolving heads, a plurality of individually rotating work-holders arranged in a circular group, each consisting ot two opposed chucks, carried by said heads, a rotating seaming tool having a spiral seaming surface disposed centrally of said group, andmeans, acting independently with respect to each work-holder, for opening and closing the two chucks ot' each work-holder on the work and for moving, during the seaming operation, both chucks in unison parallel to the axis of the seaming tool.

3. A machine ot the character described comprising: two revolving heads, a plurality or individually rotating work-holders arranged in a circular group, each consisting of two opposer chucks, carried by said heads, a seaming tool having a spiral seaming surface disposed centrally of said group, means, acting independently with respect to each work-holder, for opening and closing the two chucks of each work-holder on the work and tor moving, during the seaming operation, both chucks in unison parallel to the axis of the seaming tool, and means for feeding bodies and covers to the workholders.

4. machine of the character described comprising: two revolving heads, a plurality of individually rotating work-holders arranged in a circular group, eachv consisting of two opposed chucks, carried by said heads, a seaming tool having a spiral seaming surface disposed centrally of said group, and stationary cams for opening and closing the two chucks of each work-holder individually on the work and :tor moving, during the seaming operation, both chucks in unison parallel to the axis of the seaming tool.

5.A 1n a machine of the character set forth: a seaming tool having a spiral seaming surface, al gear connected with said seaming tool, a plurality ot chucks revolving in an orbit about said seaming tool, a gear carried by each chuck to engage the gear on the seaming tool, and means for individually moving the chucks parallel to4 the axisotthe seaming tool.

6. In. a machine of the character set forth: a revolving head, a seaming tool having a` spiral seaming surface extending centrally through said head, a plurality yof chuck carriers mounted to slide independently of each other parallel to the axis of said seaming 'tool in said seaining head, chucks supported by said carriers, gears between the seaming tool and the chucks to rotate the latter from the former, and a stationary cam and connections for etlecting reciprocation of the chuck carriers.

7. A machine of the character described comprising: two revolving heads, an upper and a lower one, a seaming tool extending through the upper head, a plurality of chuck carriers slidingly mounted in the upper head, rotating chucks mounted in said chuck carriers, a plurality of slidingV mem-- bers mounted on the lower revolving head, a pedestal on each ci said sliding members, and stationary cams :tor eiectingreciprocai pedestals tion of the chuclr carriers and sliding mem bers to more the pedestals and chuclrs toward each other and to thereafter during the seaming operation move the chucks and in unison and in an upward db rection 8. in a machine of the character set forth: a revolving head, a plurality of chuck carriers slidingly mounted in said head and arranged in a circular group, a seaming tool having spiral surface tending centrally through supported by the carriers the seaining tools, means for elise-ting reciprocation of the eh clr carriers, a lower revolif'ing head, a plurality of reciprocating pedestals carried thereby, and a positioning device supported by the chuclr carrier and having a curved positioning surface adjacent the seeming tool for centering "l and driven from eil` worlr on the pedestal, said surface havinp` an opening to admit of access the work by the seaming tool. i i

9. A machine of the character described comprising: upper and lower revolving heads, a seaniing tool eatending through the upper head, chucks carried by the upper head, gears for rotating the chucks from the seeming tool, pedestals carried by the lowerhead, a shaft extending across the top of the upper head, gears for driving the scanning tool from said shaft, fan upright shaft, gears for revolving the two heads from the upright shaft, and gears for driving the upright shaft from the first mentioned shaft. i Y

l0. ri machine of the character described comprising: Vupper and lower revolving heads, a seeming tool extending through the upper head, chuclrs carried by the upper head, gears for rotating the chuclrs from the seaming tool, pedestals carried by the lower head, a shaft extending across the top of the upper head, gears for driving the seaming` tool from said shaft, an upright shaft, gears for revolving the two heads from the upright shaft, gears for driving the upright shaft from the first mentioned shaft, a rotatable iii-feeding turret for feeding worlr to the pedestals, a conveyor chain for feeding worlr to the turret, a second upright shaft, gears for driving the second upright shaft from the first mentioned shaft, gearing including an internal gear for driving the turret from the second upright shaft, and gearing for driving the conveyor chain from the second upright shaft. H

ll. In afmachine of the character described: a. heading mechanism including worlnholders, seaming means, a revolving` infeeding turret for feeding bodies to the Worlr-holders of the heading mechanism, means for adjusting said turret toward and away from the heading mechanism, a table said head, chucks over which bodies slide as they are fedby the turret, and means for raising and lowering the table. v i i l2. In a machine of the character doscribed: a heading mechanism including work-holders, seaining means, a. revolving in-feeding turret for feeding bodies to the- Vfeedingout guide also adjustable with the turret, means on` the turret ,for feeding covers to said guide, a table over which the bodies slide as they are fed by the turret, and means for vertically adjusting the table.

lll. ln a. machine of the character set forth: a turret supporting member, a source of supply of covers carried by said turret supporting member, cover separating means, a vertical shaft on said turret support, a revolving turret on said support, gearing for revolving the turret from said upright shaft, gearing for driving the cover separating means from said upright shaft, heading mechanism, and means for adjusting the turret both toward and away from the heading mechanism. a

l5. ln a machine of the character set forth: turret supporting member, a source of supply of covers carried bysaid turret support-ing member, cover separatingineans,

a vertical shaft on said turret support, a-

revolving turret on said support, gearing for revolving the turret from said upright shaft, gearing for driving the cover separat ing means from saidupright shaft, heading mechanism, means for adjusting thetnrret both toward and away from the heading mechanism, a` power shaft carried by the heading mechanism, and gearing including a sliding member for transmitting power from said power shaft tothe vertical shaft on the turret support.

1G. ln a machine of the character described: heading mechanism, an iii-feeding turret adjacent to said heading mechanism, means for adjusting said turret toward and away from the heading mechanism, Va vertically'adjustable table below the turret over which the bodies slide as they are fed i said turret, a conveyor sproolretV movable with the table, transmission means including a sliding member for driving the turret from 

